KR100550297B1 - Flame retardant wooden powder - Google Patents

Abstract

The present invention prepares wood flour, and penetrates the prepared wood flour into ZnCl ₂ solution to form secondary fibrous-reinforced particles, neutralizes the fibrous-enriched wood flour by infiltrating CaO, and neutralizes the material contained in the neutralized wood flour. The method provides a flame-retardant wood flour production method and flame retardant wood flour prepared according to the method comprising the step of completely removing the treated wood flour, aging and drying the dried wood flour, and mixing a flame retardant with the dried wood flour.

Wood powder, flame retardant

Description

Flame retardant wooden powder

1 is a photograph showing a conventional artificial wood produced using wood powder.

Figure 2 is a photograph showing the flame retardant wood powder according to the present invention.

Figure 3a is a flame retardancy comparison experiment for flame retardant wood flour and ordinary wood flour according to the present invention, a photograph showing an initial state.

Figure 3b is a flame retardancy comparison experiment for the flame retardant wood flour and ordinary wood flour according to the present invention, a photograph showing a state after 1 minute after the addition of the thermal power.

Figure 3c is a flame retardant comparative experiment for the flame retardant wood flour and ordinary wood flour according to the invention, a photograph showing a state after 5 minutes after the addition of thermal power.

Figure 3d is a flame retardancy comparison experiment for the flame retardant wood flour and ordinary wood flour according to the present invention, a photograph showing a state after 10 minutes after applying the thermal power.

Figure 3e is a flame retardancy comparison experiment for the flame retardant wood flour and ordinary wood flour according to the present invention, a photograph showing a state after 20 minutes after applying the thermal power.

Figure 3f is a flame retardancy comparison experiment for the flame retardant wood flour and ordinary wood flour according to the present invention, a photograph showing a state after 30 minutes after applying the thermal power.

Figure 3g is a flame retardant comparative experiment for the flame retardant wood flour and ordinary wood flour according to the present invention, a photograph showing the state after 1 hour after applying the thermal power.

The present invention relates to a flame retardant wood powder, and more particularly to a new material for construction that significantly improved the strength and flame retardancy through the reinforcement treatment and flame retardant treatment to the wood powder obtained from the waste wood.

Various structures and buildings, such as buildings and houses, have been manufactured by processing wood in a certain way.However, when manufacturing buildings using wood, many problems such as deformation caused by moisture or damage to wood occur. In case of using wood as a building material, there is a problem of being exposed to fire without defense.

Therefore, various flame retardant materials have been developed in order to prevent the flames from spreading any more during a fire such as a building using wood.

Flame retardant materials (aka tex) used as ceiling and wall finishing materials of buildings are mainly made of asbestos. These flame retardancy is relatively good flame retardancy, but the strength and elasticity is very weak and strong corrosive, short life as a flame retardant material, especially the high specific gravity had a big disadvantage such as low working efficiency.

In addition, gypsum board made of gypsum has good flame resistance, but it is urgent to develop alternative materials because toxic gases are generated and they are not easily decomposed when left in nature.

In order to solve this problem, conventional papers containing high paper pulp are laminated several sheets and then specially processed to reduce the weight of the flame retardant and improve the life, and at the same time to enhance the flame retardancy, durability, strength and elasticity There was an attempt to sleep.

However, this conventional technology is not enough to use the texture of the wood has a limit to use as a building material, in particular difficult to mold in various forms.

In addition, in order to supply the product at a low price, mass production should be easy, but a flame retardant manufactured by stacking several sheets of paper was inadequate for mass production, and there was a problem in that productivity was very low.

On the other hand, since the quantity of wood is limited, the artificial wood has been replaced by manufacturing artificial wood using synthetic resin. The general method of manufacturing artificial wood is adding and mixing synthetic resin, wood flour, and an appropriate additive at a predetermined ratio, and the mixture It is to form a certain form.

However, the artificial wood produced by the above method has a limitation in using it as a flame retardant due to poor flame retardancy even if the flame retardant is included as an additive, which also has a problem that mass production is difficult in a mass production system.

In addition, the artificial wood using wood powder is difficult to increase the content of wood powder, it is difficult to produce a texture as a wood, in particular not only the strength is reduced, but also has a problem of poor durability, such as cracking and shattering easily when touched by hand. 1)

Therefore, existing flame retardant materials have been limited to use in building structures and other applications.

Accordingly, it is an object of the present invention to provide a flame retardant wood flour having greatly improved flame retardancy from wood powder to be disposed of.

Another object of the present invention is to provide a strong flame retardant wood powder.

In addition, another object of the present invention is to provide a flame-retardant wood powder that is easy to form, mass production is possible.

Other objects and features of the present invention will become apparent from the following detailed description and claims.

In order to achieve the above object, the present invention prepares wood flour, and penetrates the prepared wood flour into ZnCl ₂ solution to form fibrous-reinforced secondary particles, and neutralizes the fibrous-enriched wood flour by infiltrating CaO and neutralizing it. It provides a method for producing a flame-retardant wood powder comprising the step of completely removing the material contained in the step, aging and drying the milled wood powder, and mixing a flame retardant to the dried wood powder.

The present invention may further comprise the step of mixing the adhesive to the wood powder, molding in a certain form. In addition, after mixing the flame retardant, an additional drying step may be included.

The refining treatment uses any one or more materials selected from caustic soda, acetic acid or water.

The present invention also provides a flame retardant wood flour prepared by the above method.

Flame retardant wood flour according to the present invention does not generate a flame in the wood powder even if the fire is close, only the carbonization that burns black with smoke from the wood powder surface.

According to the experiment, the flame-retardant wood flour of the present invention is gradually carbonized after a time of about 10 minutes to 30 minutes, it is shown that the carbonization is almost completed after about 1 hour. However, since wood does not generate sparks, when used as a building material, it does not transmit flames to other materials around it, and does not emit toxic gases when compared to building materials composed of other organic chemicals, thus preventing human and property disasters in case of fire. It is estimated to be greatly reduced.

In addition, the flame-retardant wood powder of the present invention can be freely modified in its shape and thickness, can be used as furniture, building panels, exterior materials, interior materials, other decorative materials, and other industrial applications can be spotlighted as a new material in high fields There will be.

Hereinafter, the method for producing the flame retardant wood flour of the present invention and its flame retardant characteristics will be described in more detail.

First, the flame-retardant wood flour of the present invention can be used not only general wood but also waste wood obtained from industrial waste. Preferably, it is preferable to mainly use waste wood in terms of resource recycling.

In general, wood flour is made of artificial wood by adding a binder such as a synthetic resin and combined with other non-wood materials, in this case the strength is poor and the moldability is not good.

In the present invention, wood powder obtained by pulverizing waste wood is prepared, and the wood powder is subjected to reinforcement treatment so as to have a strength of a predetermined level or more, thereby obtaining secondary granular wood powder having granules having a larger particle size than the pulverized wood powder particles. The secondary particle wood powder is not only excellent in hardness, but also has the advantage that the adhesive strength is enhanced when mixing a binder such as an adhesive as a post-treatment. In addition, the overall strength of the final product after molding is also excellent and durability is enhanced.

In the reinforcing step, the pulverized wood flour is penetrated into the ZnCl ₂ solution as a reinforcing agent added with a large amount of water to solidify the fiber phase of the wood flour. This reinforcing step is to melt the fiber phase of the wood powder to some extent to strengthen the fiber phase and at the same time increase the bonding force between the fiber phase. Through this process, the wood flour particles not only increase their strength but also fine powders aggregate together to form granules.

After strengthening the fibrous phase, the wood powder is continuously penetrated with CaO to neutralize the ZnCl ₂ to neutralize the reinforcing agent.

Neutralized wood flour is subjected to the ripening process for a certain time, the ripening time is suitable for 10 seconds-5 minutes, preferably about 1 minute. Therefore, the aging process can be carried out continuously with the reinforcing step and the neutralizing step.

Next, a refiner process is used to remove the neutralized material from the wood meal. This process is to completely remove the material penetrated into the wood powder, and the material used is any one or more materials selected from caustic soda, acetic acid or water. This process can also proceed continuously with the preceding steps.

After complete removal of the infiltrated material from the wood meal, a primary drying step is carried out. It is not necessary to remove all the moisture in this process, and it is sufficient to dry to a suitable extent to include the binder in a subsequent process. Drying time will vary depending on the amount of wood meal. Preferably it is dried to 70-90%. The drying process can also be carried out in a continuous process.

The flame proofing agent is infiltrated into the wood powder after the first drying. The flame retardant used can be any material used and it is recommended to have an active stirring process for ease of penetration. Flame retardant penetration time depends on the agitation speed and the amount of wood meal, but this process can also be carried out continuously with the above process. If the flame retardant penetrates into the wood powder, it can perform the function of sufficient flame retardant wood powder by itself. However, in order for the flame retardant wood flour to have more industrial utility, it is necessary to undergo a molding process in a certain form.

The wood powder penetrated by the flame retardant may be dried and then subjected to a molding step.

In the molding step, first, the adhesive is mixed with wood powder to increase the bonding force between the wood powder particles, and the wood powder is prepared in a state in which it can be molded to a certain form.

As the adhesive used, a synthetic resin component is usually used. As an example, a mixture of urea resin and a curing agent may be used, but the adhesive used in the present invention is not limited thereto.

The wood powder to which the adhesive is added may be molded in the form of a panel having a certain thickness or in the form of a structure having a certain volume. In the case of panels, extrusion may be used, and a structure having a certain shape may be molded into a mold by applying pressure. In addition, various known molding methods can all be used.

In the case of general pressure molding or extrusion molding, the above-described strengthening step and flame retardant penetration step may be continued in a series of processes.

Figure 2 is a photograph showing the flame-retardant wood flour (right) prepared according to the present invention. Common wood flour (left) is shown together for comparison. It can be seen that the particle size is large as a whole because the fines combine to form granules. If you touch the wood powder with your hands, you can feel the strength is very strong compared to ordinary wood powder.

Next, look at the results of testing the flame retardant properties of the flame retardant wood flour according to the present invention. First, flame retardant wood flour and general wood flour according to the present invention were prepared for comparative experiments.

Prepared wood flour was placed on the firearm and examined for changes over time. They used lignite used in the smithy, fired them, put a mesh network on them, and burned the same amount of wood flour.

Figure 3a is a flame retardancy comparison experiment for the flame retardant wood flour (left) and the common wood flour (right) according to the present invention, a photograph showing an initial state. From the early stages, we could see smoke rising from the edges of ordinary wood powder.

Figure 3b is a picture showing a state after 1 minute after applying the thermal power. Already a general wood flour is attached to the flame slightly burned, but the wood powder according to the present invention is only slightly burned at the edge of the flame did not occur at all.

Figure 3c is a photograph showing a state after 5 minutes after applying the thermal power. It can be seen that the flame continues to burn when the flame grows sharply in general wood powder, but the wood powder according to the present invention burns little by little from the edge and does not generate much smoke.

Figure 3d is a photograph showing a state after 10 minutes after applying the thermal power. It can be seen that in general wood flour, the flame spreads and burns as a whole, while the wood powder according to the present invention can only be seen as smoke is weakly smoked with only the tanned edges.

Figure 3e is a photograph showing the state after 20 minutes after applying the thermal power. While the general wood powder can be seen that the flame is completely burned and completely burned, the wood powder according to the present invention has no significant difference compared with 10 minutes.

Figure 3f is a photograph showing a state after 30 minutes after applying the thermal power. It can be seen that the ordinary wood powder disappears all the flames, and only the blacked ash remains, but the wood powder according to the present invention can be observed to be smoked weakly while still blacking from the edge.

Figure 3g is a picture showing the state after 1 hour after the addition of thermal power. It can be seen that the general wood powder is already burnt out and disappeared, and the wood powder according to the present invention can be seen to be tanned without a spark.

Through the comparative experiments, it was found that the flame-retardant wood powder according to the present invention does not generate a flame even when the fire is approaching, emits very little smoke, and weakly carbonizes from the surface over time. Therefore, the flame-retardant wood powder according to the present invention is expected to be used as an ideal flame-retardant building material because it is judged that there is little emission of toxic gas without spreading the blowing in the event of fire.

As described above, according to the present invention, by recycling wood powder obtained from waste wood, which is only discarded industrial waste, and using it as a flame retardant building material, it can greatly contribute to resource recycling and environmental protection.

In addition, the flame-retardant wood powder of the present invention is not only excellent in strength compared to the conventional flame retardant material using the common wood powder, but also greatly improved flame retardancy can be used as a building material of various applications.

In addition, the flame-retardant wood flour of the present invention is excellent in moldability and advantageous to mass production can be further increased industrial utilization.

Claims (5)

Prepare wood powder, The prepared wood flour was penetrated into ZnCl ₂ solution to form fibrous reinforced secondary particles, Fibrous hardened wood powder penetrates into CaO and neutralizes it, The material contained in the neutralized wood powder is squarely removed and Aged wood powder is aged and dried, Mixing the flame retardant to dried wood flour Flame retardant wood flour manufacturing method. The method of claim 1, further comprising the step of mixing the adhesive to the wood powder, and molding in a predetermined form. [Claim 2] The method of claim 1, wherein the refining treatment uses at least one material selected from caustic soda, acetic acid or water. The method of claim 1, comprising an additional drying step after mixing the flame retardant. Flame retardant wood flour prepared by the method of claim 1

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